The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an (2024)

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Bohr's Model of an Atom

The maximum n...

A

4 electrons

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C

8 electrons

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D

12 electrons

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Solution

The correct option is C 8 electrons
The formula to find the maximum number of electrons that can be accommodated in a shell = 2n2 where ‘n’ is the number of the given shell from the nucleus. The maximum number of electrons that can be filled in the second shell (L - Shell) = 2(2)2 = 8 electrons.


The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (1)

The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (2)

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The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (3)

The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (4)

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The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (7)

The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (8)

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The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (9)

The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (10)

The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an atom.A. 4 electronsB. 6 electronsC. 8 electronsD. 12 electrons (11)

Neil Bohr Model

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The maximum number of electrons that can be filled in an orbit shell can be found by using the formula 2 n 2; where ' n ' stands for an orbit's serial number. Calculate the maximum number of electrons that can be accommodated in the 2nd orbit shell of an (2024)
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